Abstract
High elevation spruce forests of the European Alps are frequently infected by the needle rust Chrysomyxa rhododendri, a pathogen causing remarkable defoliation, reduced tree growth and limited rejuvenation. Exact quantification of the disease severity on different spatial scales is crucial for monitoring, management and resistance breeding activities. Based on the distinct yellow discolouration of attacked needles, it was investigated whether image analysis of digital photographs can be used to quantify disease severity and to improve phenotyping compared to conventional assessment in terms of time, effort and application range. The developed protocol for preprocessing and analysis of digital RGB images enabled identification of disease symptoms and healthy needle areas on images obtained in ground surveys (total number of analysed images n = 62) and by the use of a semiprofessional quadcopter (n = 13). Obtained disease severities correlated linearly with results obtained by manual counting of healthy and diseased needles for all approaches, including images of individual branches with natural background (R 2 = 0.87) and with black background (R 2 = 0.95), juvenile plants (R 2 = 0.94), and top views and side views of entire tree crowns of adult trees (R 2 = 0.98 and 0.88, respectively). Results underline that a well‐defined signal related to needle bladder rust symptoms of Norway spruce can be extracted from images recorded by standard digital cameras and using drones. The presented protocol enables precise and time‐efficient quantification of disease symptoms caused by C. rhododendri and provides several advantages compared to conventional assessment by manual counting or visual estimations.
Highlights
Climate change is expected to drive changes in the dynamics of forest insect and pathogen attacks (Ayres & Lombardero, 2000; Allen et al, 2010), demanding innovative approaches and the application of new technologies in monitoring of forest health
Image acquisition was conducted on the study site Praxmar im Sellraintal (Tyrol, Austria; 1680 m a.s.l., 47°090N 11°080E), located near the alpine timberline and characterized by typical subalpine Norway spruce forests, which were repeatedly infected and damaged in the last decade by C. rhododendri
The presented protocol enabled a distinct selection of needle parts with and without disease symptoms caused by C. rhododendri on ground and aerial photographs (Figs 1 & 2)
Summary
Climate change is expected to drive changes in the dynamics of forest insect and pathogen attacks (Ayres & Lombardero, 2000; Allen et al, 2010), demanding innovative approaches and the application of new technologies in monitoring of forest health. In subalpine Norway spruce forests of the European Alps, the needle bladder rust (Chrysomyxa rhododendri) is one of the most frequent forest pathogens. More than 20 000 hectares of infected spruce forest have been reported in the alpine region of Tyrol, Austria during the last decades (Bauer & Schwaninger, 2007; Ganthaler et al, 2014). The rust fungus undergoes a complex life cycle with different spore types and a host shift between the telial host Rhododendron sp. Infections are frequent on subalpine forest sites where both hosts co-occur. Spores are spread by the wind and infect the fresh current-year spruce needles. The pathogen forms an extensive mycelium within the needles, causing chlorophyll degradation and distinct
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